EP3974709A1 - Lighting device for a motor vehicle headlight - Google Patents

Abstract

Lighting device (10) for a motor vehicle headlight, which lighting device (10) comprises the following: - at least one light module (11) for generating a low beam distribution with at least one light source which is set up to emit light, - a beam shield (20) with an optically relevant Aperture edge for generating an asymmetrical light-dark boundary, the light module (11) being arranged in the installation position of the lighting device (10) in a motor vehicle headlight on an upper side of the beam aperture (20) and in combination with the optically relevant aperture edge of the beam aperture (20) contributes to the generation of a low beam distribution, - a projection lens (100) with an optical axis (B), which projection lens (100) is set up to project the light that can be generated by the light module in front of the lighting device (10) in a main emission direction, the projection lens (100 ) a light entry surface (110) and a has a convex light exit surface (120) opposite the light entry surface (110), wherein the projection lens (100) comprises an optical device (200) which is arranged on the projection lens and which comprises a multiplicity of free-form lenses (210) each having an effective surface (211), wherein the optical device is set up to direct part of the light entering the projection lens (100) and exiting via the effective surfaces of the free-form lenses to an area above the asymmetrical light-dark boundary of the low-beam light distribution.

Description

• zumindest ein Lichtmodul zur Erzeugung einer Abblendlichtverteilung mit zumindest einer Lichtquelle, welche eingerichtet ist, Licht zu emittieren,
• eine Strahlenblende mit einer optisch relevanten Blendenkante zur Erzeugung einer Hell-Dunkel-Grenze, wobei das Lichtmodul in Einbaulage der Beleuchtungsvorrichtung in einem Kraftfahrzeugscheinwerfer an einer Oberseite der Strahlenblende angeordnet ist und in Kombination mit der optisch relevanten Blendenkante der Strahlenblende zur Erzeugung einer Abblendlichtverteilung mitwirkt,
• eine Projektionslinse mit einer optischen Achse, welche Projektionslinse eingerichtet ist, das von dem Lichtmodul erzeugbare Licht vor der Beleuchtungsvorrichtung in eine Hauptabstrahlrichtung abzubilden, wobei die Projektionslinse eine Lichteintrittsfläche und eine der Lichteintrittsfläche gegenüberliegende, konvexe Lichtaustrittsfläche aufweist.

The invention relates to a lighting device for a motor vehicle headlight, which lighting device comprises the following:

• at least one light module for generating a low beam distribution with at least one light source which is set up to emit light,
• a beam shield with an optically relevant screen edge for generating a light-dark boundary, the light module being arranged in the installation position of the lighting device in a motor vehicle headlight on an upper side of the beam shield and in combination with the optically relevant screen edge of the beam shield contributing to the generation of a low beam distribution,
• a projection lens with an optical axis, which projection lens is set up to project the light that can be generated by the light module in front of the lighting device in a main emission direction, the projection lens having a light entry surface and a convex light exit surface opposite the light entry surface.

The invention also relates to a motor vehicle headlight with at least one lighting device according to the invention.

This area of light distribution above the cut-off line is also referred to as the overhead or signlight area (derived from the visibility of the traffic signs).

The statutory measuring points in this area extend up to 4° above the horizon and are characterized by minimum and maximum values as well as so-called cumulative values for the illuminance that occurs at the measuring points.

Due to the nature of the system, projection systems with a low beam function have very little light above the cut-off line, since this overhead area is effectively shaded by the beam shield used in projection systems.

Because of the effective shading, special measures are necessary to ensure that these measuring points are adequately illuminated with suitable amounts of light. At the same time, compliance with the prescribed maximum values in the vicinity of the light-dark boundary must be observed. These maximum values are also referred to as so-called glare values.

The optical device is generally a modification of the "original" lens entry or light exit surface of the projection lens, with the most varied of modifications being generally possible for deflecting light into a region above the cut-off line.

A fundamental problem that occurs with all known solutions with such optical devices is that the deflected beams are concentrated in a relatively small area, so that on the one hand too much light gets into this area and on the other hand other areas have too low light values, ie that this area is not homogeneously illuminated by the known solutions.

It is an object of the invention to provide an improved lighting device.

This object is achieved in that the projection lens comprises an optical device arranged on the projection lens, which comprises a multiplicity of free-form lenses, each with an effective surface, the optical device being set up to capture part of the light entering the projection lens and exiting via the effective surfaces of the free-form lenses Directing light to an area above the asymmetrical light-dark boundary of the low beam distribution.

The targeted selection of the active surfaces and their course on the projection lens enables the widest possible and most homogeneously illuminated signlight in the low beam distribution.

It can be provided that the optical device is arranged on the light exit surface of the projection lens and forms a manipulated part of the light exit surface that deviates from the convex light exit surface.

It can be provided that the effective surface of each free-form lens and the light exit surface form a starting edge in a common surface intersection line, with the effective surface extending away from the starting edge of the light exit surface along two side edges to a sloped edge opposite the starting edge, preferably in the direction the main emission direction, which sloped edge has a first end and a second end, the first end being at a first distance from the light exit surface along a surface normal in an orthogonal projection onto the light exit surface, and the second end having a second distance along a surface normal in an orthogonal projection onto the light exit surface Has distance to the light exit surface.

Provision can be made for the free-form lenses of the optical device to be arranged next to one another in a horizontal row when the lighting device is installed in a motor vehicle headlight, with the first distance between the active surfaces starting from a first free-form lens of the horizontally arranged free-form lenses gradually becoming smaller as the last free-form lens is reached is than the second distance, the first distance increasing and the second distance decreasing progressing towards the optical axis, such that the first distance of the free-form lenses in the region of the optical axis is equal to the second distance, the first distance progressing away from the optical axis continues to increase and the second distance continues to decrease.

It can be provided that the optical device is arranged on the light entry surface of the projection lens and forms a manipulated part of the light entry surface that deviates from the light entry surface.

Provision can be made for the free-form lenses to be arranged next to one another in a plurality of rows parallel to one another.

Provision can be made for the effective surface of a free-form lens and the light entry surface to form a starting edge in a common surface intersection line, with the effective surface extending away from the light entry surface along two side edges, starting from the starting edge, to a rising edge opposite the starting edge, which rising edge is a having a first end and a second end, the first end along a surface normal in an orthogonal projection on the Light entry surface has a first distance from the light entry surface, and wherein the second end has a second distance from the light entry surface along a surface normal in an orthogonal projection onto the light entry surface.

It can be provided that the first and the second distance of an effective surface is of the same size, wherein preferably the first and the second distance of each effective surface is of the same size.

Provision can be made for the free-form lenses of the optical device to be arranged relative to one another in such a way that a logo, for example a manufacturer's logo, is formed.

Provision can be made for the free-form lenses to be arranged directly next to one another in a row.

Provision can be made for the active surfaces to be curved.

Provision can be made for the light/dark boundary to be asymmetrical or straight.

This object is also achieved by a motor vehicle headlight with at least one lighting device according to the invention.

• Fig. 1 eine beispielhafte Beleuchtungsvorrichtung in einer Seitenansicht, wobei die Beleuchtungsvorrichtung ein Lichtmodul, wobei das Licht des Lichtmoduls über eine Strahlenblende mittels einer Projektionslinse vor die Beleuchtungsvorrichtung projizierbar ist,
• Fig. 2 eine Frontalansicht der Projektionslinse aus Fig. 1, wobei die Projektionslinse eine optische Einrichtung umfasst, welche mehrere Freiformlinsen aufweist,
• Fig. 3 eine perspektivische Ansicht der optischen Einrichtung aus Fig. 3,
• Fig. 4A eine beispielhafte Freiformlinse in einer perspektivischen Ansicht,
• Fig. 4B eine weitere beispielhafte Freiformlinse in einer perspektivischen Ansicht,
• Fig. 4C eine weitere beispielhafte Freiformlinse in einer perspektivischen Ansicht, und
• Fig. 5 eine Schnittdarstellung der Projektionslinse und der optischen Einrichtung von oben.
• Fig. 1 zeigt eine beispielhafte Beleuchtungsvorrichtung 10 für einen Kraftfahrzeugscheinwerfer, welche Beleuchtungsvorrichtung ein Lichtmodul 11 zur Erzeugung einer Abblendlichtverteilung mit zumindest einer Lichtquelle umfasst.

The invention is explained in more detail below with reference to exemplary drawings. Here shows

• 1 an exemplary lighting device in a side view, wherein the lighting device comprises a light module, wherein the light of the light module can be projected in front of the lighting device via a beam shield by means of a projection lens,
• 2 a front view of the projection lens 1 , wherein the projection lens comprises an optical device which has a plurality of free-form lenses,
• 3 a perspective view of the optical device 3 ,
• Figure 4A an exemplary free-form lens in a perspective view,
• Figure 4B another exemplary free-form lens in a perspective view,
• Figure 4C another exemplary freeform lens in a perspective view, and
• figure 5 a sectional view of the projection lens and the optical device from above.
• 1 shows an exemplary lighting device 10 for a motor vehicle headlight, which lighting device comprises a light module 11 for generating a low beam distribution with at least one light source.

Furthermore, the lighting device 10 comprises a beam stop 20 with an optically relevant stop edge for generating an asymmetrical light-dark boundary, the light module 11 being arranged in the installation position of the lighting device 10 in a motor vehicle headlight on an upper side of the beam stop 20 and in combination with the optically relevant Aperture edge of the beam diaphragm 20 contributes to the generation of a low beam distribution.

The lighting device also includes a projection lens 100 with an optical axis B, which projection lens 100 is set up to project the light that can be generated by the light module in front of the lighting device 10 in a main emission direction, with the projection lens 100 having a light entry surface 110 and a convex light exit surface opposite the light entry surface 110 120 has.

An optical device 200 is arranged on the light exit surface 120 of the projection lens 100 , wherein the optical device 200 forms a manipulated part of the light exit surface that deviates from the convex light exit surface 120 and comprises a multiplicity of free-form lenses 210 , each with an effective surface 211 , such as in FIG 2 and 3 can be seen, the optical device 200 being set up to direct part of the light entering the projection lens 100 and exiting via the active surfaces 211 of the free-form lenses to an area above the asymmetric light-dark boundary of the low-beam light distribution.

Figures 4A to 4C show exemplary embodiments of the free-form lenses 210, the effective surface 211 each having a free-form lens 210 and the light exit surface 120 in one common surface intersection line form a starting edge 211a , with the effective surface 211 extending from the starting edge 211a away from the light exit surface 120 along two side edges to a sloped edge 211b opposite the starting edge 211a , preferably in the direction of the main emission direction, which sloped edge 211b has a first end 212a and a second end 212b , wherein the first end 212a has a first distance A1 from the light exit surface 120 along a surface normal in an orthogonal projection onto the light exit surface 120 , and the second end 212b has a second distance along a surface normal in an orthogonal projection onto the light exit surface 120 A2 to the light exit surface 120 has. In this case, the active surfaces are of curved design, preferably of different curved design.

in the in Figure 4A In the embodiment shown, the first distance A1 is greater than the second distance A2, with the second distance A2 being zero.

in the in Figure 4B embodiment shown, the first distance A1 is greater than the second distance A2.

in the in Figure 4C shown embodiment, the first distance A1 is equal to the second distance A2.

In the example shown in the figures, the free-form lenses 210 of the optical device 200 are arranged next to one another in a horizontal row when the lighting device 10 is installed in a motor vehicle headlight, with the first distance A1 of the effective surfaces 211 starting from a first free-form lens of the horizontally arranged free-form lenses extending to to a last free-form lens is initially smaller than the second distance A2, with the first distance A1 increasing in the course of the optical axis B and the second distance A2 decreasing, so that the first distance A1 of the free-form lenses in the area of the optical axis B is equal to the second distance A2 is, the first distance A1 further increasing further away from the optical axis B and the second distance A2 further decreasing, as outlined in FIG figure 5 is shown, which shows the projection lens 100 and the optical device 200 from above.

Furthermore, it is also possible for the optical device 200 to be arranged in another example on the light entry surface 110 of the projection lens 100 , with the free-form lenses 210 being arranged next to one another in a plurality of rows parallel to one another.

The effective surface 211 of a free-form lens 210 - similar to the example shown in the figures - and the light entry surface 110 form a starting edge in a common surface intersection line, with the effective surface 211 starting from the starting edge 211a extending from the light entry surface 110 along two side edges to a sloped edge 211b opposite the starting edge 211a , which sloped edge 211b has a first end and a second end, the first end being a first distance A1 from the light entrance surface 120 along a surface normal in an orthogonal projection onto the light entry surface 110 , and the second end 212b has a second distance A2 from the light exit surface 120 along a surface normal in an orthogonal projection onto the light entry surface 120 .

In this case, the first and the second distance A1 , A2 of an active surface 211 is the same, the first and the second distance A1 , A2 of each active surface 211 preferably being the same.

It can be provided, for example, that the free-form lenses 210 of the optical device 200, if the optical device is arranged on the light entry surface 110 , are arranged relative to one another such that a logo, for example a manufacturer's logo, is formed. <b>LIST OF REFERENCE MARKS</b> Lighting device... 10 light module... 11 Beam stop... 20 projection lens ... 100 light entry surface... 110 light exit surface... 120 Optical setup... 200 freeform lens... 210 Effective area... 211 starting edge... 211a slope edge ... 211b First ending... 212a Second ending... 212b First distance... A1 Second distance... A2 Optical axis... B

Claims (13)

Lighting device (10) for a motor vehicle headlight, which lighting device (10) comprises the following: - at least one light module (11) for generating a low beam distribution with at least one light source which is set up to emit light, - a beam diaphragm (20) with an optically relevant diaphragm edge for generating a light-dark boundary, the light module (11) being arranged in the installed position of the lighting device (10) in a motor vehicle headlight on an upper side of the beam diaphragm (20) and in combination with the optically relevant screen edge of the beam screen (20) contributes to the generation of a low beam distribution, - a projection lens (100) with an optical axis (B), which projection lens (100) is set up to project the light that can be generated by the light module in front of the lighting device (10) in a main emission direction, the projection lens (100) having a light entry surface (110) and has a convex light exit surface (120) opposite the light entry surface (110), characterized in that
the projection lens (100) comprises an optical device (200) arranged on the projection lens, which comprises a multiplicity of free-form lenses (210) each having an effective surface (211), the optical device being set up to to direct the light that enters and exits via the effective surfaces of the free-form lenses to an area above the asymmetrical light-dark boundary of the low beam distribution. Lighting device according to Claim 1, characterized in that the optical device (200) is arranged on the light exit surface (120) of the projection lens (100) and forms a manipulated part of the light exit surface (120) that deviates from the convex light exit surface (120). Lighting device according to Claim 2, characterized in that the effective surface (211) of a free-form lens (210) and the light exit surface (120) form a starting edge (211a) in a common surface intersection line, the effective surface (211) starting from the starting edge (211a ) extends away from the light exit surface (120) along two side edges to a sloped edge (211b) opposite the start edge (211a), preferably in the direction of the main emission direction, which sloped edge (211b) has a first end (212a) and a second end (212b ), wherein the first end (212a) has a first distance (A1) to the light exit surface (120) along a surface normal in an orthogonal projection onto the light exit surface (120), and the second end (212b) along a surface normal in an orthogonal projection the light exit surface (120) has a second distance (A2) to the light exit surface (120). Lighting device according to Claim 3, characterized in that the free-form lenses (210) of the optical device (200) are arranged next to one another in a horizontal line when the lighting device (10) is installed in a motor vehicle headlight, the first distance (A1) between the effective surfaces (211) starting from a first free-form lens of the horizontally arranged free-form lenses in the course to a last free-form lens is initially smaller than the second distance (A2), the first distance (A1) increasing in the course to the optical axis (B) and the second distance (A2) decreases, so that the first distance (A1) of the free-form lenses in the area of the optical axis (B) is equal to the second distance (A2), the first distance (A1) further increasing in the course away from the optical axis (B) and the second Distance (A2) continues to decrease. Lighting device according to Claim 1, characterized in that the optical device (200) is arranged on the light entry surface (110) of the projection lens (100) and forms a manipulated part of the light entry surface (110) that deviates from the light entry surface (110). Lighting device according to Claim 5, characterized in that the free-form lenses (210) are arranged next to one another in a plurality of rows parallel to one another. Lighting device according to Claim 6, characterized in that the effective surface (211) of a free-form lens (210) and the light entry surface (110) form a starting edge (211a) in a common surface intersection line, the effective surface (211) starting from the starting edge (211a ) extends away from the light entry surface (110) along two side edges to a slope edge (211b) opposite the start edge (211a), which slope edge (211b) has a first end (212a) and a second end (212b), the first End (212a) along a surface normal in an orthogonal projection onto the light entry surface (110) has a first distance (A1) from the light entry surface (120), and the second end (212b) along a surface normal in an orthogonal projection onto the light entry surface (110). second distance (A2) to the light entry surface (110). Lighting device according to Claim 7, characterized in that the first and second distances (A1, A2) of an effective area (211) are the same, the first and second distances (A1, A2) of each effective area (211) preferably being the same . Lighting device according to one of Claims 6 to 8, characterized in that the free-form lenses (210) of the optical device (200) are arranged in relation to one another in such a way that a logo, for example a manufacturer's logo, is formed. Lighting device according to one of Claims 1 to 4, characterized in that the free-form lenses (210) are arranged directly next to one another in a row. Lighting device according to one of Claims 1 to 10, characterized in that the active surfaces (211) are curved. Lighting device according to one of Claims 1 to 11, characterized in that the cut-off line is asymmetrical or straight. Motor vehicle headlight with at least one lighting device according to one of Claims 1 to 12.

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